| nbinom2 {glmmTMB} | R Documentation |
Family functions for glmmTMB
nbinom2(link = "log") nbinom1(link = "log") compois(link = "log") genpois(link = "log") truncated_poisson(link = "log") truncated_nbinom2(link = "log") truncated_nbinom1(link = "log") betar(link = "logit") betabinomial(link = "logit") tweedie(link = "log")
link |
(character) link function ("log", "logit", "probit", "inverse", "cloglog", or "identity") |
has a variance that increases quadratically with the mean (Hardin & Hilbe 2007)
has a variance that increases linearly with the mean (Hardin & Hilbe 2007)
is the Conway-Maxwell Poisson parameterized with the exact mean which differs from the COMPoissonReg package (Sellers & Lotze 2015)
is the generalized Poisson distribution
follows the parameterization of Ferrari and Cribari-Neto (2004) and the betareg package
returns a list with (at least) components
family |
length-1 character vector giving the family name |
link |
length-1 character vector specifying the link function |
variance |
a function of either 1 (mean) or 2 (mean and dispersion parameter) arguments giving the predicted variance |
Ferrari SLP, Cribari-Neto F (2004). "Beta Regression for Modelling Rates and Proportions." J. Appl. Stat. 31(7), 799-815.
Hardin JW & Hilbe JM (2007). "Generalized linear models and extensions." Stata press.
Sellers K & Lotze T (2015). "COMPoissonReg: Conway-Maxwell Poisson (COM-Poisson) Regression". R package version 0.3.5. https://CRAN.R-project.org/package=COMPoissonReg